Current methodologies used for the inference of thin film stress through curvature measurements are strictly restricted to uniform film stress and system curvature states over the entire system of a single thin film on a substrate. By considering a circular multilayer thin film/substrate system subjected to nonuniform temperature distributions, we derive relations between the stresses in each film and temperature, and between the system curvatures and temperature. These relations featured a “local” part that involves a direct dependence of the stress or curvature components on the temperature at the same point, and a “nonlocal” part, which reflects the effect of temperature of other points on the location of scrutiny. We also derive relations between the film stresses in each film and the system curvatures, which allow for the experimental inference of such stresses from full-field curvature measurements in the presence of arbitrary nonuniformities. These relations also feature a “nonlocal” dependence on curvatures making full-field measurements of curvature a necessity for the correct inference of stress. The interfacial shear tractions between the films and between the film and substrate are proportional to the gradient of the first curvature invariant, and can also be inferred experimentally.

1.
Stoney
,
G. G.
, 1909, “
The Tension of Metallic Films Deposited by Electrolysis
,”
Proc. R. Soc. London, Ser. A
0950-1207,
A82
, pp.
172
175
.
2.
Freund
,
L. B.
, and
Suresh
,
S.
, 2004,
Thin Film Materials; Stress, Defect Formation and Surface Evolution
,
Cambridge University Press
, Cambridge, U.K.
3.
Wikstrom
,
A.
,
Gudmundson
,
P.
, and
Suresh
,
S.
, 1999, “
Thermoelastic Analysis of Periodic Thin Lines Deposited on a Substrate
,”
J. Mech. Phys. Solids
0022-5096,
47
, pp.
1113
1130
.
4.
Shen
,
Y. L.
,
Suresh
,
S.
, and
Blech
,
I. A.
, 1996, “
Stresses, Curvatures, and Shape Changes Arising from Patterned Lines on Silicon Wafers
,”
J. Appl. Phys.
0021-8979,
80
, pp.
1388
1398
.
5.
Wikstrom
,
A.
,
Gudmundson
,
P.
, and
Suresh
,
S.
, 1999, “
Analysis of Average Thermal Stresses in Passivated Metal Interconnects
,”
J. Appl. Phys.
0021-8979,
86
, pp.
6088
6095
.
6.
Park
,
T.-S.
, and
Suresh
,
S.
, 2000, “
Effects of Line and Passivation Geometry on Curvature Evolution During Processing and Thermal Cycling in Copper Interconnect Lines
,”
Acta Mater.
1359-6454,
48
, pp.
3169
3175
.
7.
Masters
,
C. B.
, and
Salamon
,
N. J.
, 1993, “
Geometrically Nonlinear Stress–Deflection Relations for Thin Film/Substrate Systems
,”
Int. J. Eng. Sci.
0020-7225,
31
, pp.
915
925
.
8.
Salamon
,
N. J.
, and
Masters
,
C. B.
, 1995, “
Bifurcation in Isotropic Thin Film/Substrate Plates
,”
Int. J. Solids Struct.
0020-7683,
32
, pp.
473
481
.
9.
Finot
,
M.
,
Blech
,
I. A.
,
Suresh
,
S.
, and
Fijimoto
,
H.
, 1997, “
Large Deformation and Geometric Instability of Substrates with Thin-Film Deposits
,”
J. Appl. Phys.
0021-8979,
81
, pp.
3457
3464
.
10.
Freund
,
L. B.
, 2000, “
Substrate Curvature Due to Thin Film Mismatch Strain in the Nonlinear Deformation Range
,”
J. Mech. Phys. Solids
0022-5096,
48
, pp.
1159
1174
.
11.
Lee
,
H.
,
Rosakis
,
A. J.
, and
Freund
,
L. B.
, 2001, “
Full Field Optical Measurement of Curvatures in Ultra-thin Film/Substrate Systems in the Range of Geometrically Nonlinear Deformations
,”
J. Appl. Phys.
0021-8979,
89
, pp.
6116
6129
.
12.
Park
,
T.-S.
,
Suresh
,
S.
,
Rosakis
,
A. J.
, and
Ryu
,
J.
, 2003, “
Measurement of Full Field Curvature and Geometrical Instability of Thin Film-Substrate Systems Through CGS Interferometry
,”
J. Mech. Phys. Solids
0022-5096,
51
, pp.
2191
2211
.
13.
Huang
,
Y.
,
Ngo
,
D.
, and
Rosakis
,
A. J.
, 2005, “
Non-uniform, Axisymmetric Misfit Strain in Thin Films Bonded on Plate Substrates Systems: The Relation Between Non-uniform Film Stresses and System Curvatures
,”
Acta Mech. Sin.
0459-1879,
21
, pp.
362
370
.
14.
Huang
,
Y.
, and
Rosakis
,
A. J.
, 2005, “
Extension of Stoney’s Formula to Non-uniform Temperature Distributions in Thin Film/Substrate Systems. The Case of Radial Symmetry
,”
J. Mech. Phys. Solids
0022-5096,
53
, pp.
2483
2500
.
15.
Huang
,
Y.
, and
Rosakis
,
A. J.
, 2007, “
Extension of Stoney’s Formula to Arbitrary Temperature Distributions in Thin Film/Substrate Systems
,”
ASME J. Appl. Mech.
0021-8936,
74
, pp.
1225
1233
.
16.
Ngo
,
D.
,
Huang
,
Y.
,
Rosakis
,
A. J.
, and
Feng
,
X.
, 2006, “
Spatially Non-uniform, Isotropic Misfit Strain in Thin Films Bonded on Plate Substrates: The Relation Between Non-uniform Stresses and System Curvatures
,”
Thin Solid Films
0040-6090,
515
, pp.
2220
2229
.
17.
Feng
,
X.
,
Huang
,
Y.
,
Jiang
,
H.
,
Ngo
,
D.
, and
Rosakis
,
A. J.
, 2006, “
The Effect of Thin Film/Substrate Radii on the Stoney Formula for Thin Film/Substrate Subjected to Non-uniform Axisymmetric Misfit Strain and Temperature
,”
J. Mech. Mater. Struct.
1559-3959,
1
, pp.
1041
1054
.
18.
Ngo
,
D.
,
Feng
,
X.
,
Huang
,
Y.
,
Rosakis
,
A. J.
, and
Brown
,
M. A.
, 2007, “
Thin Film/Substrate Systems Featuring Arbitrary Film Thickness and Misfit Strain Distributions: Part I. Analysis for Obtaining Film Stress From Nonlocal Curvature Information
,”
Int. J. Solids Struct.
0020-7683,
44
, pp.
1745
1754
.
19.
Brown
,
M. A.
,
Rosakis
,
A. J.
,
Feng
,
X.
,
Huang
,
Y.
, and
Ustundag
,
E.
, 2007, “
Thin Film/Substrate Systems Featuring Arbitrary Film Thickness and Misfit Strain Distributions: Part II. Experimental Validation of the Non-local Stress-Curvature Relations
,”
Int. J. Solids Struct.
0020-7683,
44
, pp.
1755
1767
.
You do not currently have access to this content.